Journal ArticleDOI
Monte Carlo Prediction of Near-Infrared Light Propagation in Realistic Adult and Neonatal Head Models
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TLDR
Light propagation in the two-dimensional realistic adult and neonatal head models, whose geometries are generated from a magnetic resonance imaging scan of the human heads, is predicted by Monte Carlo simulation.Abstract:
In near-infrared spectroscopy and imaging, the sensitivity of the detected signal to brain activation and the volume of interrogated tissue are clinically important. Light propagation in adult and neonatal heads is strongly affected by the presence of a low-scattering cerebrospinal fluid layer. The effect of the heterogeneous structure of the head on light propagation in the adult brain is likely to be different from that in the neonatal brain because the thickness of the superficial tissues and the optical properties of the brain of the neonatal head are quite different from those of the adult head. In this study, light propagation in the two-dimensional realistic adult and neonatal head models, whose geometries are generated from a magnetic resonance imaging scan of the human heads, is predicted by Monte Carlo simulation. The sandwich structure, which is a low-scattering cerebrospinal fluid layer held between the high-scattering skull and gray matter, strongly affects light propagation in the brain of the adult head. The sensitivity of the absorption change in the gray matter is improved; however, the intensely sensitive region is confined to the shallow region of the gray matter. The high absorption of the neonatal brain causes a similar effect on light propagation in the head. The intensely sensitive region in the neonatal brain is confined to the gray matter; however, the spatial sensitivity profile penetrates into the deeper region of the white matter.read more
Citations
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HomER: a review of time-series analysis methods for near-infrared spectroscopy of the brain.
TL;DR: The practical implementation of various signal processing techniques for removing physiological, instrumental, and motion-artifact noise from optical data are described within the context of the MATLAB-based graphical user interface program, HomER, which is developed and distributed to facilitate the processing of optical functional brain data.
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Monte Carlo simulation of photon migration in 3D turbid media accelerated by graphics processing units.
Qianqian Fang,David A. Boas +1 more
TL;DR: A parallel Monte Carlo algorithm accelerated by graphics processing units (GPU) for modeling time-resolved photon migration in arbitrary 3D turbid media renders the GPU-based Monte Carlo simulation a practical solution for data analysis in a wide range of diffuse optical imaging applications, such as human brain or small-animal imaging.
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A temporal comparison of BOLD, ASL, and NIRS hemodynamic responses to motor stimuli in adult humans
Theodore J. Huppert,Richard D. Hoge,Solomon G. Diamond,Maria Angela Franceschini,David A. Boas +4 more
TL;DR: This study has preformed simultaneous near-infrared spectroscopy (NIRS) along with BOLD and ASL (arterial spin labeling)-based fMRI during an event-related motor activity in human subjects in order to compare the temporal dynamics of the hemodynamic responses recorded in each method.
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Illuminating the developing brain: The past, present and future of functional near infrared spectroscopy
TL;DR: A review of the challenges that have been overcome in this field, the practicalities of performing fNIRS in infants, and the technological and methodological advances made in the study design, optical probe development, and interpretation and analyses of the haemodynamic response.
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Optical brain imaging in vivo: techniques and applications from animal to man
TL;DR: Optical brain imaging has seen 30 years of intense development, and has grown into a rich and diverse field as mentioned in this paper, with a wide range of approaches currently being applied to in-vivo optical brain imaging, from animal to man.
References
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Near-infrared optical properties of ex vivo human skin and subcutaneous tissues measured using the Monte Carlo inversion technique
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Three dimensional Monte Carlo code for photon migration through complex heterogeneous media including the adult human head
TL;DR: A novel Monte Carlo code for photon migration through 3D media with spatially varying optical properties, known as 'tMCimg', is described and can serve as a resource for solving the forward problem for complex 3D structural data obtained by MRI or CT.